How Could Circadian Clock Genes influence Short Duration Timing?
Research output: Chapter in Book/Report/Conference proceeding › Chapter
Standard Standard
How Could Circadian Clock Genes influence Short Duration Timing? / Nicholas, Bradley.
Time Distortions in Mind: Temporal Processing in Clinical Populations. ed. / Argiro Vatakis and Melissa Allman. Brill, 2015. p. 356–381.
Time Distortions in Mind: Temporal Processing in Clinical Populations. ed. / Argiro Vatakis and Melissa Allman. Brill, 2015. p. 356–381.
Research output: Chapter in Book/Report/Conference proceeding › Chapter
HarvardHarvard
Nicholas, B 2015, How Could Circadian Clock Genes influence Short Duration Timing? in AVAMA (ed.), Time Distortions in Mind: Temporal Processing in Clinical Populations. Brill, pp. 356–381.
APA
Nicholas, B. (2015). How Could Circadian Clock Genes influence Short Duration Timing? In A. V. A. M. A. (Ed.), Time Distortions in Mind: Temporal Processing in Clinical Populations (pp. 356–381). Brill.
CBE
Nicholas B. 2015. How Could Circadian Clock Genes influence Short Duration Timing?. AVAMA, editor. In Time Distortions in Mind: Temporal Processing in Clinical Populations. Brill. pp. 356–381.
MLA
Nicholas, Bradley "How Could Circadian Clock Genes influence Short Duration Timing?". Argiro Vatakis and Melissa Allman (ed.). Time Distortions in Mind: Temporal Processing in Clinical Populations. Chapter 13, Brill. 2015, 356–381.
VancouverVancouver
Nicholas B. How Could Circadian Clock Genes influence Short Duration Timing? In AVAMA, editor, Time Distortions in Mind: Temporal Processing in Clinical Populations. Brill. 2015. p. 356–381
Author
RIS
TY - CHAP
T1 - How Could Circadian Clock Genes influence Short Duration Timing?
AU - Nicholas, Bradley
PY - 2015/1/1
Y1 - 2015/1/1
M3 - Chapter
SN - ISBN: 978-90-04-23064-4
SP - 356
EP - 381
BT - Time Distortions in Mind
A2 - null, Argiro Vatakis and Melissa Allman
PB - Brill
ER -